Question

Which pair of linear equations in two variables is called as dependent pair of linear equations in two variables

Answer 1

Step-by-step explanation:

A pair of linear equations which are equivalent has infinitely many distinct common solutions. Such a pair is called a dependent pair of linear equations in two variables. Note that a dependent pair of linear equations is always consistent. (i) the lines may intersect in a single point.

$</p><p></p><p><svg class= "heart" viewBox= "-2 -2 98.6 90.81"></p><p></p><p>  <title>Corazon</title></p><p>  </p><p>  <text x=8 y=22 dx= "0 0 0 0 0 0 0"  dy= "2 -8 -2  -1 1 2 4 "style= "font: bold .7em arial; fill: red;"> silenť</p><p>   <tspan x=60 y=22 style= "font: bold .7em arial; fill: blue;">silentkiller</tspan></p><p>   <tspan x= 10 dy= 15 style= "font: bold .6em arial; fill: navy;"> </tspan></p><p>   <tspan x= 25 dy= 10 style= "font: bold .6em arial; fill: navy;">followme</tspan></p><p>   <tspan x= 35 dy= 10 style= "font: bold .6em arial; fill: navy;"></tspan></p><p>   <tspan x= 37 dy= 10 style= "font: bold .5em arial; fill: red;">...</tspan></p><p>   </p><p>   <animate attributeType="XML" attributeName="visibility" from="visible" to="hidden" dur="9.2s" begin="0s" /></p><p>   </p><p>  </text></p><p>  </p><p>  <path stroke= "firebrick" stroke-width= "3" d= "M86.81,8.15a27.79,27.79,0,0,1,0,39.33L47.48,86.81,8.15,47.48A27.81,27.81,0,0,1,47.48,8.15,27.79,27.79,0,0,1,86.81,8.15Z"/></p><p>  </p><p></svg></p><p><style></p><p>body {</p><p>display: grid;</p><p>min-height: 100vh;</p><p>justify-content: center;</p><p>align-content: center;</p><p>background: repeating-linear-gradient(circle, white, yellow, red); </p><p>background: repeating-radial-gradient(circle, white, yellow, red);</p><p>}</p><p></p><p>.heart {</p><p>width: 250px;</p><p>animation: heart-beat .5s 4.85s infinite ease-in-out alternate;</p><p>}</p><p></p><p>@keyframes heart-beat {</p><p>  to{</p><p>   transform: scale(1.05);</p><p>  }</p><p>}</p><p></p><p>path {</p><p>fill: none;</p><p>stroke-dasharray: 286;</p><p>stroke-dashoffset: 286;</p><p>animation: heart-path 5s forwards;</p><p>.ocultarText: color:transparent ;</p><p>}</p><p></p><p>@keyframes heart-path {</p><p>99% {</p><p>   stroke-dashoffset: 0;</p><p>   fill: none;</p><p>}</p><p>100% {</p><p>   fill: firebrick;</p><p>}</p><p>}</p><p></p><p></style></p><p></p><p>$

Answer 2

Step-by-step explanation:

Explanation:

↙️↘️◆↙️↘️◆↙️↘️◆↙️↘️◆↙️↙️◆↘️↙️

$\huge{\underline{\mathscr{\purple{Hey,mate..!}}}}$

$\huge{\red{\mathfrak{Answer}}}$

$<a><b><i><body bgcolor="yellow">$ 

❤️_________✍️_________❤️

A pair of linear equations which are equivalent has infinitely many distinct common solutions. Such a pair is called a dependent pair of linear equations in two variables. Note that a dependent pair of linear equations is always consistent. (i) the lines may intersect in a single point.

✳️❇️✳️❇️✳️❇️✳️❇️✳️

【◆】●【◆】●【◆】●【◆】●【◆】●【◆】

$<marquee r]</p><p>‌[tex]\large{\red{\boxed{\mathbb{Hope\: It\: Helps}}}}$

❤️

✨✨

✳️✳️✳️

✔️✔️✔️✔️

➖➖➖➖➖

follow me

❤️silentkiller05 ❤️